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职业迁徙
个人简介
Research Summary
Development of novel retinal imaging systems and therapeutic techniques and technologies, including photoacoustic imaging, molecular imaging, restorative retinal laser therapy, and surgical techniques. The goal of my research is to allow physicians in real time to determine cellular markers for earlier diagnosis, improved treatment monitoring, and more individualized precision medicine tailored to each patient’s unique molecular markers.
My research seeks to allow physicians to diagnose diseases earlier, improve treatment monitoring, and practice more individualized precision medicine tailored to each patient through molecular imaging. My interest is in applying physics, bioengineering, and mathematical modeling to develop novel retinal imaging systems and laser therapies.
I have co-developed a novel, inexpensive system for providing tele-ultrasound, co-founded a retinal imaging company, and investigate pattern scanning laser photocoagulation (PASCAL), laser-tissue interactions, and restorative retinal laser therapy to create minimally traumatic retinal laser therapy. I am interested in developing more targeted laser therapy through modulation of pulse duration, wavelength, beam characteristics, and physical modulators.
I study photoacoustic and molecular imaging of the retina and choroid for retinal ischemic diseases, including macular degeneration, diabetic retinopathy, vein occlusions, and sickle cell retinopathy. The photoacoustic effect uses light absorption to induce slight local temperature changes, producing ultrasound waves. The imaging device detects these ultrasound waves to create a high-resolution, 3-D image of the retina, choroid, and optic nerve. This allows for non-invasive functional imaging including tissue oxygenation and blood distribution. Through the use of contrast agents targeting neovascularization, I can achieve molecular imaging of the eye for early diagnosis of macular degeneration, prognostication, and determination of response to therapy.
Clinical Interests
Diseases and surgery of the retina and vitreous, including diabetic retinopathy, age-related macular degeneration, retinal vascular disease, retinal detachments, ocular trauma, ocular inflammation, macular and submacular surgery, and surgical management of complex retinal detachment
Development of novel retinal imaging systems and therapeutic techniques and technologies, including photoacoustic imaging, molecular imaging, restorative retinal laser therapy, and surgical techniques. The goal of my research is to allow physicians in real time to determine cellular markers for earlier diagnosis, improved treatment monitoring, and more individualized precision medicine tailored to each patient’s unique molecular markers.
My research seeks to allow physicians to diagnose diseases earlier, improve treatment monitoring, and practice more individualized precision medicine tailored to each patient through molecular imaging. My interest is in applying physics, bioengineering, and mathematical modeling to develop novel retinal imaging systems and laser therapies.
I have co-developed a novel, inexpensive system for providing tele-ultrasound, co-founded a retinal imaging company, and investigate pattern scanning laser photocoagulation (PASCAL), laser-tissue interactions, and restorative retinal laser therapy to create minimally traumatic retinal laser therapy. I am interested in developing more targeted laser therapy through modulation of pulse duration, wavelength, beam characteristics, and physical modulators.
I study photoacoustic and molecular imaging of the retina and choroid for retinal ischemic diseases, including macular degeneration, diabetic retinopathy, vein occlusions, and sickle cell retinopathy. The photoacoustic effect uses light absorption to induce slight local temperature changes, producing ultrasound waves. The imaging device detects these ultrasound waves to create a high-resolution, 3-D image of the retina, choroid, and optic nerve. This allows for non-invasive functional imaging including tissue oxygenation and blood distribution. Through the use of contrast agents targeting neovascularization, I can achieve molecular imaging of the eye for early diagnosis of macular degeneration, prognostication, and determination of response to therapy.
Clinical Interests
Diseases and surgery of the retina and vitreous, including diabetic retinopathy, age-related macular degeneration, retinal vascular disease, retinal detachments, ocular trauma, ocular inflammation, macular and submacular surgery, and surgical management of complex retinal detachment
研究兴趣
论文共 246 篇作者统计合作学者相似作者
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期刊级别
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BIOMEDICAL OPTICS EXPRESSno. 1 (2024): 360-386
International journal of molecular sciencesno. 17 (2024)
Marko M. Popovic,Michael Balas,SriniVas R. Sadda,David Sarraf,Ryan Huang,Sophie J. Bakri,Audina Berrocal,Andrew Chang,Chui Ming Gemmy Cheung,Sunir Garg,Roxane J. Hillier,Frank G. Holz,Mark W. Johnson,Peter K. Kaiser,Peter J. Kertes,Timothy Y.Y. Lai,Jason Noble,Susanna S. Park,Yannis M. Paulus,Giuseppe Querques
Ophthalmology (2024)
Fundamental Research (2024)
Biomoleculesno. 3 (2024)
University of Michigan Undergraduate Research Journalno. 0 (2024)
Van Phuc Nguyen,Athanasios J. Karoukis,Justin Hu, Zhuying Wei, Dongshan Yang,Abigail T. Fahim,Xueding Wang,Yannis M. Paulus
SCIENTIFIC REPORTSno. 1 (2024)
Biomedicinesno. 7 (2024): 1405-1405
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作者统计
#Papers: 246
#Citation: 2760
H-Index: 26
G-Index: 44
Sociability: 6
Diversity: 0
Activity: 3
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